SU1751761A1 - Automatic asynchronous device for tasting digital systems - Google Patents

Abstract

The invention relates to the field of computing and can be used to verify and troubleshoot complex logic blocks and systems. The aim of the invention is to increase the reliability of the control and reduce the time required to implement the control. For this purpose, a control block is inserted into the device containing the reference block and skew analyzer, which includes a group of n keys, a switch to m positions, a group of m single potential generators, an encoder, four fixed memory blocks, a counter, two triggers, two groups of p / 8 multiplexers, a pulse generator, a divider, an element And, a switch of time intervals, a group of digital indicators, the indicator is CORRECTED, the indicator is FAILED and the reset button 2 Il. (L

Description

The invention relates to digital computing and can be used to test and troubleshoot complex logic blocks and systems.

The aim of the invention is to increase the reliability of the control and reduce the time required to implement the control.

FIG. 1 is a block diagram of an asynchronous automatic device for controlling digital systems; in fig. 2 - functional diagrams of the control unit and skew analyzer.

Fig. 1 shows the data processing system 1, the reference block 2, the monitored block 3 (the control object is one of the blocks of the system 1), the control block 4 and the skew analyzer 5.

The control unit 4 (Fig. 2) contains n keys 6, m resistors (generators of a single potential) 7, an encoder 8, blocks 9 and 10 of permanent memory, a counter 11, a trigger 12, blocks 13 and 14 of a permanent memory, n / 8 multiplexers 15 and 16, pulse generator 17, divider 18, trigger 19, element I 20, group of digital indicators 21, switches 22 and 23, reset button 24, indicator 25 Good and indicator 26 Defective. Each of the n keys of the 6th group has three output states (where n is the number of contacts in the connector for connecting the reference unit 2 to the data processing system 1). The switch 22 has m positions (where m is the number of blocks included in the processing system 1).

The skew analyzer 5 (FIG. 2) contains an EXCLUSIVE OR element 27, a differentiating chain 28 comprising a resistor 29 and a capacitor 30, and a driver 31.

The device works as follows.

The switch 22 sets the number assigned to the reference unit 2 for this data processing system 1. Using switch 23, a time interval of ortl up to 12 is set, during which all output signals of the monitored unit change. The data processing system 1 is put into operation. After pressing the reset button 24, the monitoring process is started. When the switch 22 is set to the state with the specified number, O is supplied to the corresponding input of the encoder 8, and the remaining inputs are maintained with the help of resistors 1. The binary word corresponding to the selected block number is formed at the output of the encoder 8. The code of this binary word is fed to the address input of block 9, at the output of which the n-rar word is formed at the table written in it. The potentials of the first group of outputs of block 9 open part of the keys b, which pass signals that are input to the controlled block 3, and the potentials I from another group of outputs of block 9 close some of the keys b, which do not pass the corresponding output signals.

The binary word code from the output of the encoder 8 also goes to the address input of block 10 and to the access enable inputs of blocks 13 and 14. A binary word is formed at the output of block 10, the code of which corresponds to the number of output contacts for a given controlled block 3 From the output of block 10, the code of the generated binary the word enters the installation input of the counter 11 and is written into it by pressing the reset button 24. The binary word written to counter 11 from its output goes to the address inputs of blocks 13 and 14. At the output of block 13, the table recorded by D forms seven-bit words that go to digital indicators 21 and highlight the number of the contact being checked in the notation connector. At the output of block 14, according to a given program (gablitz), a binary word with a size of 3 p / 8 is generated. The first three bits of this word go to the control inputs of all multiplexers 15 and 16, the remaining bits of the code from the output of block 14 go to two multiplexers of the same name 15 and 16 (to the inputs of switching on the microcircuits to the active state).

The program (table) D block 1 is recorded in such a way that the signal from the contacts of the reference and controlled blocks 2 and 3.

the number of which is indicated by block 13, through multiplexers 15 and 16 is fed to the corresponding input of the analyzer 5 skewed If these output signals

the same, then at the output of the element 27 the potential 1 is saved and after a time determined by the position of the switch 23, the counter 11 is transferred to the state one less than the previous one.

0 the new number from the output of counter 11, entering the inputs of blocks 13 and 14, highlights the number of the next contact (using block 13) and transmits the corresponding output contact signals of the reference and supervised blocks 2 and 3 (using block 14 and multiplexers 15 and 16 ) on the inputs of the analyzer 5 skew. At the output of the transfer of counter 11, a pulse appears (after counting the number that determines the number of output contacts), which is fed to the input of the trigger 12. As a result, the trigger 12 changes its state, which is displayed by the indicator 25 (Good). In addition, the signal from the second output of trigger 12 prohibits

5 passing the signal from the output of the generator 17 through the I / I element 20 to the input of the divider 18. If there is a discrepancy between the signals of the reference and monitored blocks 2 and 3, then the output of the element

0 27 sets the potential O, and the signal differential, differentiated by the chain 28, is fed to the input of the imager 31 From the output of the imager 31, a pulse signal (the presence of which

5 depends on the shift of the input signals (know the skew 5 skew), arriving at the reset input (R) of the trigger 19, puts it in the zero state and stops the divider 18, and hence the counter 11. With

The 0 indicator26 indicates the fault status of the monitored unit, and the contact number on which the fault is detected is indicated (by elements 21)

Claims (2)

5 To control another data processing system, it is enough to change the firmware of the tables in the blocks of the permanent memory. Claim 1. Acnh is a chronic automatic device for monitoring digital systems, containing a reference unit and a skew analyzer, characterized in that, in order to increase the reliability of the monitoring and reduce the time required for 5 of the control implementation, a control block is inserted in it, which includes a group of n keys (where n is the number of contacts in the connector for connecting the reference block at the data input and output), a switch to m positions (where m is the number of blocks, to be checked), a group of m generators of a single potential, an encoder, four blocks of permanent memory, a counter, two triggers, two groups of n / 8 multiplexers, a generator of pulses, a divider, an element And, a time interval switch, a group of digital indicators , the indicator is good, the indicator is faulty and the reset button, the input of the reference unit and the first inputs of all the keys of the group are combined and form the device polling input, the information inputs of the first group multiplexers are the input of the device for connection to the output of the control object, the outputs of the keys of the group are the output of the device for connecting the input of the control object, the first output of the switch to the chap positions is connected to the zero potential bus, and the 1st second output of the switch for m gates (1 im) is connected to the output i The -ro generator of the single potential and the f-th input of the encoder, the output of which is connected to the address inputs of the first and second blocks of the fixed memory and the inputs of the access resolution of the third and fourth blocks of the fixed memory, the output of the first block of the fixed memory Connected to the second inputs of all keys of the group, the address inputs of the third and fourth blocks of the constant memory are connected to the information output of the counter, the output of the third block of the permanent memory is connected to the inputs of the digital indicators of the group, the output of the fourth block of the permanent memory is connected to The control inputs of all multiplexers of the first and second groups, the reset input, the clock input and the stop stop input are connected respectively to the outputs of the reset button, the second block of the permanent memory and the time switch, the input is The settings, the reset input and the direct output of the first trigger are connected respectively to the counter transfer output, the reset button output and the Indicator indicator input, the information inputs of the multiplexers of the second group are connected to the output of the reference block, the outputs of the multiplexers of the first and second groups are connected respectively to the first and second information inputs skew analyzer, the first and second inputs and output of the element And are connected respectively to the output of the pulse generator, the inverse output of the first trigger and the clock input de A relay whose outputs are connected to the same time switch inputs, and the setup input, the reset input, the direct and inverse outputs of the second trigger are connected respectively to the output of the skew analyzer, the output of the reset button, the indicator input Fault and the divider stop input, 2. The device is pop, 1, so that the skew analyzer contains an EXCLUSIVE OR element, a differentiating chain and a former, the output of which is the analyzer output, the first and second inputs of the EXCLUSIVE OR element the first and second information inputs of the analyzer, and the output of the EXCLUSIVE OR element is connected to the driver input and the first output of the differentiating chain, the second output of which is connected to the zero potential bus.